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Literature DB >> 22111572

Nanoscale transport enables active self-assembly of millimeter-scale wires.

Ofer Idan¹, Amy Lam, Jovan Kamcev, John Gonzales, Ashutosh Agarwal, Henry Hess.

Abstract

Active self-assembly processes exploit an energy source to accelerate the movement of building blocks and intermediate structures and modify their interactions. A model system is the assembly of biotinylated microtubules partially coated with streptavidin into linear bundles as they glide on a surface coated with kinesin motor proteins. By tuning the assembly conditions, microtubule bundles with near millimeter length are created, demonstrating that active self-assembly is beneficial if components are too large for diffusive self-assembly but too small for robotic assembly.

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Year: 2011 PMID： 22111572 DOI： 10.1021/nl203450h

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

6 in total

Nanoscale transport enables active self-assembly of millimeter-scale wires.

1. Controlling self-assembly of microtubule spools via kinesin motor density.

Review 2. Synchronous operation of biomolecular engines.

Review 3. Non-equilibrium assembly of microtubules: from molecules to autonomous chemical robots.

Review 4. Translational actomyosin research: fundamental insights and applications hand in hand.

5. Transport and self-organization across different length scales powered by motor proteins and programmed by DNA.

6. DNA-assisted swarm control in a biomolecular motor system.